mirror of
https://github.com/capstone-engine/capstone.git
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551 lines
12 KiB
C
551 lines
12 KiB
C
/* Capstone Disassembler Engine */
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/* By Nguyen Anh Quynh <aquynh@gmail.com>, 2013> */
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#include <stddef.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <capstone.h>
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#include "utils.h"
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#include "MCRegisterInfo.h"
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cs_err (*arch_init[MAX_ARCH])(cs_struct *) = { NULL };
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cs_err (*arch_option[MAX_ARCH]) (cs_struct *, cs_opt_type, size_t value) = { NULL };
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void (*arch_destroy[MAX_ARCH]) (cs_struct *) = { NULL };
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extern void enable_arm();
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extern void enable_arm64();
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extern void enable_mips();
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extern void enable_x86();
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extern void enable_powerpc();
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void enable_construct() {
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#ifdef CAPSTONE_HAS_ARM
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enable_arm();
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#endif
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#ifdef CAPSTONE_HAS_ARM64
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enable_arm64();
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#endif
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#ifdef CAPSTONE_HAS_MIPS
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enable_mips();
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#endif
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#ifdef CAPSTONE_HAS_X86
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enable_x86();
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#endif
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#ifdef CAPSTONE_HAS_POWERPC
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enable_powerpc();
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#endif
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}
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unsigned int all_arch = 0;
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#ifdef USE_SYS_DYN_MEM
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malloc_t my_malloc = malloc;
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calloc_t my_calloc = calloc;
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realloc_t my_realloc = realloc;
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free_t my_free = free;
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#else
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malloc_t my_malloc = NULL;
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calloc_t my_calloc = NULL;
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realloc_t my_realloc = NULL;
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free_t my_free = NULL;
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#endif
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unsigned int cs_version(int *major, int *minor)
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{
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if (major != NULL && minor != NULL) {
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*major = CS_API_MAJOR;
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*minor = CS_API_MINOR;
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}
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return (CS_API_MAJOR << 8) + CS_API_MINOR;
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}
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bool cs_support(int arch)
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{
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if (arch == CS_ARCH_ALL)
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return all_arch == ((1 << CS_ARCH_ARM) | (1 << CS_ARCH_ARM64) |
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(1 << CS_ARCH_MIPS) | (1 << CS_ARCH_X86) |
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(1 << CS_ARCH_PPC));
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return all_arch & (1 << arch);
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}
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cs_err cs_errno(csh handle)
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{
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if (!handle)
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return CS_ERR_CSH;
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cs_struct *ud = (cs_struct *)(uintptr_t)handle;
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return ud->errnum;
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}
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const char *cs_strerror(cs_err code)
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{
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switch(code) {
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default:
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return "Unknown error code";
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case CS_ERR_OK:
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return "OK (CS_ERR_OK)";
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case CS_ERR_MEM:
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return "Out of memory (CS_ERR_MEM)";
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case CS_ERR_ARCH:
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return "Invalid architecture (CS_ERR_ARCH)";
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case CS_ERR_HANDLE:
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return "Invalid handle (CS_ERR_HANDLE)";
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case CS_ERR_CSH:
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return "Invalid csh (CS_ERR_CSH)";
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case CS_ERR_MODE:
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return "Invalid mode (CS_ERR_MODE)";
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case CS_ERR_OPTION:
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return "Invalid option (CS_ERR_OPTION)";
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case CS_ERR_DETAIL:
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return "Details are unavailable (CS_ERR_DETAIL)";
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case CS_ERR_MEMSETUP:
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return "Dynamic memory management uninitialized (CS_ERR_MEMSETUP)";
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}
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}
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cs_err cs_open(cs_arch arch, cs_mode mode, csh *handle)
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{
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if (!my_malloc || !my_calloc || !my_realloc || !my_free)
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// Error: before cs_open(), dynamic memory management must be initialized
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// with cs_option(CS_OPT_MEM)
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return CS_ERR_MEMSETUP;
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if (arch < CS_ARCH_MAX && arch_init[arch]) {
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cs_struct *ud;
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ud = my_calloc(1, sizeof(*ud));
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if (!ud) {
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// memory insufficient
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return CS_ERR_MEM;
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}
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ud->errnum = CS_ERR_OK;
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ud->arch = arch;
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ud->mode = mode;
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ud->big_endian = mode & CS_MODE_BIG_ENDIAN;
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ud->reg_name = NULL;
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// by default, do not break instruction into details
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ud->detail = CS_OPT_OFF;
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arch_init[ud->arch](ud);
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*handle = (uintptr_t)ud;
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return CS_ERR_OK;
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} else {
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*handle = 0;
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return CS_ERR_ARCH;
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}
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}
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cs_err cs_close(csh handle)
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{
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if (!handle)
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return CS_ERR_CSH;
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cs_struct *ud = (cs_struct *)(uintptr_t)handle;
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switch (ud->arch) {
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case CS_ARCH_X86:
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break;
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case CS_ARCH_ARM:
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case CS_ARCH_MIPS:
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case CS_ARCH_ARM64:
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case CS_ARCH_PPC:
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my_free(ud->printer_info);
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break;
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default: // unsupported architecture
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return CS_ERR_HANDLE;
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}
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// arch_destroy[ud->arch](ud);
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my_free(ud->insn_cache);
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memset(ud, 0, sizeof(*ud));
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my_free(ud);
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return CS_ERR_OK;
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}
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#define MIN(x, y) ((x) < (y) ? (x) : (y))
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// fill insn with mnemonic & operands info
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static void fill_insn(cs_struct *handle, cs_insn *insn, char *buffer, MCInst *mci,
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PostPrinter_t postprinter, const uint8_t *code)
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{
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if (handle->detail) {
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// avoiding copy insn->detail
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memcpy(insn, &mci->flat_insn, sizeof(*insn) - sizeof(insn->detail));
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// NOTE: copy details in 2 chunks, since union is always put at address divisible by 8
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// copy from @regs_read until @arm
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memcpy(insn->detail, (void *)(&(mci->flat_insn)) + offsetof(cs_insn_flat, regs_read),
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offsetof(cs_detail, arm) - offsetof(cs_detail, regs_read));
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// then copy from @arm until end
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memcpy((void *)(insn->detail) + offsetof(cs_detail, arm), (void *)(&(mci->flat_insn)) + offsetof(cs_insn_flat, arm),
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sizeof(cs_detail) - offsetof(cs_detail, arm));
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} else {
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insn->address = mci->address;
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insn->size = mci->insn_size;
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}
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// fill the instruction bytes
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memcpy(insn->bytes, code, MIN(sizeof(insn->bytes), insn->size));
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// map internal instruction opcode to public insn ID
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if (handle->insn_id)
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handle->insn_id(handle, insn, MCInst_getOpcode(mci));
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// alias instruction might have ID saved in OpcodePub
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if (MCInst_getOpcodePub(mci))
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insn->id = MCInst_getOpcodePub(mci);
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// post printer handles some corner cases (hacky)
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if (postprinter)
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postprinter((csh)handle, insn, buffer);
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// fill in mnemonic & operands
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// find first space or tab
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char *sp = buffer;
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for (sp = buffer; *sp; sp++)
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if (*sp == ' '||*sp == '\t')
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break;
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if (*sp) {
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*sp = '\0';
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// find the next non-space char
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sp++;
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for (; ((*sp == ' ') || (*sp == '\t')); sp++);
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strncpy(insn->op_str, sp, sizeof(insn->op_str) - 1);
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insn->op_str[sizeof(insn->op_str) - 1] = '\0';
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} else
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insn->op_str[0] = '\0';
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strncpy(insn->mnemonic, buffer, sizeof(insn->mnemonic) - 1);
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insn->mnemonic[sizeof(insn->mnemonic) - 1] = '\0';
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}
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cs_err cs_option(csh ud, cs_opt_type type, size_t value)
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{
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// cs_option() can be called with NULL handle just for CS_OPT_MEM
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// This is supposed to be executed before all other APIs (even cs_open())
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if (type == CS_OPT_MEM) {
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cs_opt_mem *mem = (cs_opt_mem *)value;
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my_malloc = mem->malloc;
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my_calloc = mem->calloc;
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my_realloc = mem->realloc;
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my_free = mem->free;
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return CS_ERR_OK;
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}
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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if (!handle)
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return CS_ERR_CSH;
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if (type == CS_OPT_DETAIL) {
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handle->detail = value;
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return CS_ERR_OK;
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}
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return arch_option[handle->arch](handle, type, value);
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}
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// dynamicly allocate memory to contain disasm insn
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// NOTE: caller must free() the allocated memory itself to avoid memory leaking
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size_t cs_disasm_ex(csh ud, const uint8_t *buffer, size_t size, uint64_t offset, size_t count, cs_insn **insn)
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{
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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MCInst mci;
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uint16_t insn_size;
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size_t c = 0, f = 0;
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cs_insn insn_cache[64];
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void *total = NULL;
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size_t total_size = 0;
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if (!handle) {
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// FIXME: how to handle this case:
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// handle->errnum = CS_ERR_HANDLE;
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return 0;
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}
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handle->errnum = CS_ERR_OK;
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memset(insn_cache, 0, sizeof(insn_cache));
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while (size > 0) {
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MCInst_Init(&mci);
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mci.csh = handle;
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bool r = handle->disasm(ud, buffer, size, &mci, &insn_size, offset, handle->getinsn_info);
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if (r) {
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SStream ss;
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SStream_Init(&ss);
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// relative branches need to know the address & size of current insn
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mci.insn_size = insn_size;
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mci.address = offset;
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if (handle->detail) {
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// save all the information for non-detailed mode
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mci.flat_insn.address = offset;
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mci.flat_insn.size = insn_size;
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// allocate memory for @detail pointer
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insn_cache[f].detail = my_calloc(1, sizeof(cs_detail));
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}
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handle->printer(&mci, &ss, handle->printer_info);
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fill_insn(handle, &insn_cache[f], ss.buffer, &mci, handle->post_printer, buffer);
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f++;
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if (f == ARR_SIZE(insn_cache)) {
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// resize total to contain newly disasm insns
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total_size += sizeof(insn_cache);
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void *tmp = my_realloc(total, total_size);
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if (tmp == NULL) { // insufficient memory
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my_free(total);
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handle->errnum = CS_ERR_MEM;
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return 0;
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}
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total = tmp;
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memcpy(total + total_size - sizeof(insn_cache), insn_cache, sizeof(insn_cache));
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// reset f back to 0
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f = 0;
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}
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c++;
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buffer += insn_size;
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size -= insn_size;
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offset += insn_size;
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if (count > 0 && c == count)
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break;
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} else {
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// encounter a broken instruction
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// XXX: TODO: JOXEAN continue here
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break;
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}
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}
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if (f) {
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// resize total to contain newly disasm insns
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void *tmp = my_realloc(total, total_size + f * sizeof(insn_cache[0]));
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if (tmp == NULL) { // insufficient memory
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my_free(total);
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handle->errnum = CS_ERR_MEM;
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return 0;
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}
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total = tmp;
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memcpy(total + total_size, insn_cache, f * sizeof(insn_cache[0]));
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}
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*insn = total;
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return c;
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}
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void cs_free(cs_insn *insn, size_t count)
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{
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size_t i;
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// free all detail pointers
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for (i = 0; i < count; i++)
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my_free(insn[i].detail);
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// then free pointer to cs_insn array
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my_free(insn);
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}
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// return friendly name of regiser in a string
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const char *cs_reg_name(csh ud, unsigned int reg)
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{
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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if (!handle || handle->reg_name == NULL) {
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return NULL;
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}
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return handle->reg_name(ud, reg);
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}
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const char *cs_insn_name(csh ud, unsigned int insn)
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{
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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if (!handle || handle->insn_name == NULL) {
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return NULL;
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}
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return handle->insn_name(ud, insn);
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}
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static bool arr_exist(unsigned char *arr, unsigned char max, unsigned int id)
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{
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int i;
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for (i = 0; i < max; i++) {
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if (arr[i] == id)
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return true;
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}
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return false;
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}
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bool cs_insn_group(csh ud, cs_insn *insn, unsigned int group_id)
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{
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if (!ud)
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return false;
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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if (!handle->detail) {
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handle->errnum = CS_ERR_DETAIL;
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return false;
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}
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return arr_exist(insn->detail->groups, insn->detail->groups_count, group_id);
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}
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bool cs_reg_read(csh ud, cs_insn *insn, unsigned int reg_id)
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{
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if (!ud)
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return false;
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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if (!handle->detail) {
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handle->errnum = CS_ERR_DETAIL;
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return false;
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}
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return arr_exist(insn->detail->regs_read, insn->detail->regs_read_count, reg_id);
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}
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bool cs_reg_write(csh ud, cs_insn *insn, unsigned int reg_id)
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{
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if (!ud)
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return false;
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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if (!handle->detail) {
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handle->errnum = CS_ERR_DETAIL;
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return false;
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}
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return arr_exist(insn->detail->regs_write, insn->detail->regs_write_count, reg_id);
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}
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int cs_op_count(csh ud, cs_insn *insn, unsigned int op_type)
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{
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if (!ud)
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return -1;
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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unsigned int count = 0, i;
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handle->errnum = CS_ERR_OK;
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switch (handle->arch) {
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default:
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handle->errnum = CS_ERR_HANDLE;
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return -1;
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case CS_ARCH_ARM:
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for (i = 0; i < insn->detail->arm.op_count; i++)
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if (insn->detail->arm.operands[i].type == op_type)
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count++;
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break;
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case CS_ARCH_ARM64:
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for (i = 0; i < insn->detail->arm64.op_count; i++)
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if (insn->detail->arm64.operands[i].type == op_type)
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count++;
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break;
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case CS_ARCH_X86:
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for (i = 0; i < insn->detail->x86.op_count; i++)
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if (insn->detail->x86.operands[i].type == op_type)
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count++;
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break;
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case CS_ARCH_MIPS:
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for (i = 0; i < insn->detail->mips.op_count; i++)
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if (insn->detail->mips.operands[i].type == op_type)
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count++;
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break;
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case CS_ARCH_PPC:
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for (i = 0; i < insn->detail->ppc.op_count; i++)
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if (insn->detail->ppc.operands[i].type == op_type)
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count++;
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break;
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}
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return count;
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}
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int cs_op_index(csh ud, cs_insn *insn, unsigned int op_type,
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unsigned int post)
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{
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if (!ud)
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return -1;
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cs_struct *handle = (cs_struct *)(uintptr_t)ud;
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unsigned int count = 0, i;
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handle->errnum = CS_ERR_OK;
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switch (handle->arch) {
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default:
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handle->errnum = CS_ERR_HANDLE;
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return -1;
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case CS_ARCH_ARM:
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for (i = 0; i < insn->detail->arm.op_count; i++) {
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if (insn->detail->arm.operands[i].type == op_type)
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count++;
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if (count == post)
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return i;
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}
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break;
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case CS_ARCH_ARM64:
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for (i = 0; i < insn->detail->arm64.op_count; i++) {
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if (insn->detail->arm64.operands[i].type == op_type)
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count++;
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if (count == post)
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return i;
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}
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break;
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case CS_ARCH_X86:
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for (i = 0; i < insn->detail->x86.op_count; i++) {
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if (insn->detail->x86.operands[i].type == op_type)
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count++;
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if (count == post)
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return i;
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}
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break;
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case CS_ARCH_MIPS:
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for (i = 0; i < insn->detail->mips.op_count; i++) {
|
|
if (insn->detail->mips.operands[i].type == op_type)
|
|
count++;
|
|
if (count == post)
|
|
return i;
|
|
}
|
|
break;
|
|
case CS_ARCH_PPC:
|
|
for (i = 0; i < insn->detail->ppc.op_count; i++) {
|
|
if (insn->detail->ppc.operands[i].type == op_type)
|
|
count++;
|
|
if (count == post)
|
|
return i;
|
|
}
|
|
break;
|
|
}
|
|
|
|
return -1;
|
|
}
|